DOI: 10.1096/fj.202301765r ISSN: 0892-6638

CL‐11 circulates in serum as functionally distinct isoforms

Adrian Sutta, Nelia Nina Leemans, Michael Ploug, Anne Rosbjerg, Christian del Agua Villa, Laura Pérez‐Alós, Leon Cyranka, Adam S. Vincek, Tomás de Garay, Keith Rivera, Rafael Bayarri‐Olmos
  • Genetics
  • Molecular Biology
  • Biochemistry
  • Biotechnology

Abstract

Collectin‐11 (CL‐11) is a pattern recognition molecule of the lectin pathway capable of interacting with collectin‐10 (CL‐10) and the MASPs to activate the complement cascade. Alternative splicing of the COLEC11 gene gives rise to two different isoforms found in serum (A and D). These isoforms vary in the length of their collagen‐like region, which is involved in the stabilization of the trimeric subunit and the interaction with the MASPs. Here we aim at elucidating the biological differences of naturally occurring CL‐11 isoforms A and D. We produced recombinant CL‐11 as independent isoforms (CL‐11A and CL‐11D) and together with CL‐10 (CL‐10/11A, CL‐10/11D). Both CL‐11 isoforms associated with CL‐10, but CL‐11D did so to a lesser extent. CL‐10/11 heterocomplexes were composed of trimeric subunits of CL‐10 and CL‐11, as opposed to CL‐10 and CL‐11 homotrimers. Heterocomplexes were more stable and migrated with higher apparent molecular weights. Immunoprecipitation of serum CL‐11 and subsequent mass spectrometry analysis confirmed that native CL‐11 circulates in the form of CL‐10/11 heterocomplexes that associate with MASP‐1, and MASP‐3, but not necessarily MASP‐2. Despite a shorter collagen region, CL‐11D was capable to bind to the MASPs, suggesting that the missing exon 4 is not required for MASP association CL‐11D had a reduced ligand binding compared to full‐length CL‐11A. Based on its reduced ability to oligomerize, form CL‐10/11 heterocomplexes, and bind to ligands, we hypothesize that CL‐11D may have a limited complement activation potential compared to full‐length CL‐11A.

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